Strip film magazine for cameras



Sept. 15, 1953 l. w. DOYLE 2,651,954

STRIP FILM MAGAZINE FOR CAMERAS Original Filed March 23, 1946 5 Sheets-Sheet 1 INVENTOR [win W20 Ze mm. MZW 614w ATTORNEYS Sept. 15, 1953 l. w. DOYLE STRIP FILM MAGAZINE FOR CAMERAS 5 Sheets-Sheet 2 Original Filed March 23, 1946 Sept. 15, 1953 1. w. DOYLE STRIP FILM MAGAZINE'FOR CAMERAS 5 Sheets-Sheet 5 Original Filed March 25, 1946 mmw INVENTOR l. W. DOYLE STRIP FILM MAGAZINE FOR CAMERAS QQ Q8 NN\ T \\Q$Q\ 3km 9 3... m9 u @E. E9 5: v 2 A i m HIE l'UZ/nj 9 6 BY 4/ flew-b WMEYS Sept. 15, 1953 Original Filed March 25, 1946 Sept. 15, 1953 1. w. DOYLE STRIP FILM MAGAZINE FOR CAMERAS 5 Sheets-Sheet 5 INVENTOR Original Filed March 23, 1946 [rz ny WDo'yZe, a/ JVLM 46M ATTORNEYS Patented Sept. 15, 1953 STRIP FILM MAGAZINE FQR CAMERAS Irving W. Doyle, Massapequa, N. Y., assignor to Fairchild Camera and Instrument Corporation, Jamaica, N. Y., a corporation of Delaware Original application March 23, 1946, Serial No.

656,612, now Patent No. 2,537,040, dated January 9, 1951. Divided and this application tober 10, 1950, Serial No. 189,375

Claims.

This invention relates to a method and apparatus for transporting photographic film, and is a division of the copending application of Irving W. Doyle et a1., Serial No. 656,612, filed March 23, 1946, which issued on January 9, 1951, as U. S. Patent No. 2,537,040.

One of the objects of this invention is to supply a camera magazine for strip film which may be readily and easily loaded under adverse light conditions. Another object is to provide a magazine of the above nature, wherein the proper amount of film is unwound from the supply spool prior to the film transport portion of a cycle during which the film claws in the magazine pull the film through the film gate, thus relieving the film claws from the load of driving the supply spool during the film transport portion of the cycle. Another object is to provide a camera magazine of the nature wherein it is unnecessary accurately to register the film perforations with the film feeding claws or the film register pins. Other objects will be in part apparent, and in part pointed out hereinafter.

The invention accordingly consists in the features of construction, combinations of elements, arrangements of parts, and in the several steps and relation and order of each of the same to one or more of the others, all as will be illustratively described herein, and the scope of the application of which will be indicated in the appended claims.

In the drawing, wherein I have shown on embodiment of my invention,

Figure 1 is a vertical, sectional elevation of the film magazine with the operative parts thereof being shown in their position just prior to their film transport movement;

Figure 2 is a sectional elevation, taken along a different line from that of Figure 1, to show additional operating parts of the magazine;

Figure 3 is a horizontal section taken along the line 3-3 of Figure 2;

Figure 4 is a sectional elevation of a portion of the magazine driving mechanism;

Figure 5 is a sectional elevation of a portion of the magazine driving mechanism, showing the film moving and registering means; and,

Figure 6 is a sectional elevation of the magazine operating mechanism showing the film claws and film registering pins.

Similar reference characters refer to similar parts throughout the views of the drawing.

Film magazine The magazine 3| comprises a housing 219,

closed on one side by a detachable cover plate 220, and on the other side by a door 221 (Figure 3), a parallel partition 223 compartmenting the interior of the housing into chambers 224 and 225. The former of these chambers houses a film supply spool 226 and a film take-up spool 221, while the latter of the chambers houses mechanism operated by a solenoid operated link 61], as described in detail in the above-noted application, to feed film from the supply to the take-up spools.

As is more clearly shown in Figure 1, the film F from supply spool 226 is carried over a roller 228, down under another roller 229, through a film guide 230, thence through a film gate, generally indicated at 231, and over a guide 232, to take-up spool 221, to the core of which the end of the film is attached.

To facilitate loading magazine 31 with film under adverse light conditions, such as obtain in a dark room, a pair of bafiles or guards 281 and 282 are disposed between supply and take-up spools 228 and 221, and secured to the side of the magazine housing in any suitable manner. The upper end of bafile 281 is suitably slotted to accommodate movement of roller 228 between its full and dotted line positions, which movement is for a purpose hereinafter described, the lower end of battle 282 being similarly slotted to permit similar movement of the lower roller 229. These baffles 281 and 282 accordingly define a path of movement for the film between the two spools, and at the same time define an area readily discernible by touch in the dark, which materially facilitates loading of the film in the magazine.

Film guide 230 may include opposed suitably formed or curved plates 283 and 284, spaced surficiently to provide a film channel of a width slightly in excess of that of the thickness of the film, so that the film may be loaded into the guide sideways, rather than being threaded therethrough end first. In similar manner, guide plate 232 may readily be identified by touch, and the film slid laterally thereover. Thus it follows that by the arrangement of the hereinbefore described baffles and film guides, it is but a simple matter to load the magazine with film in the dark, and without the necessity of properly positioning the film on sprockets to form loops, as is customary in conventional magazines.

During the film feeding cycle, as will be described in detail hereinbelow, the rollers 228 and 229 are displaced from their full to the dotted line positions, to create slack in the film during that portion of the complete cycle of operation during which the film claws, described in detail in the above-noted application, are drawn to the bottom of their stroke. Accordingly, during the film transporting stroke of the film claws, they merely feed the slack film thus created, and accordingly do not have to drive the supply spool 22% through the medium of the film.

The take-up and supply spools 221 and 226 (Figure 3) are mounted respectively on shafts 233 and 234. The bottom ends of these shafts, as viewed in Figure 3, are received in the spool cores to which they are keyed or otherwise connected, so that rotation of the shafts effects rotation of the spools. The upper end of shaft 233 is journaled by a bushing 235' pressed into partition-22 3, and has attached to its extremity a ratchet wheel 236. The upper end of shaft 234 is similarly journaled in partition 223 and also has fastened to its extremity a ratchet wheel 231.

Enclosed within and attached to the housing of magazine IN is a strut 231a which carries a bushmg 238, into which the. reduced end of a stud shaft 239 is rotatably mounted. The exposed end of this shaft has attached thereto a bushing on which is rotatably mounted a pawl carrier 24l which, as is more clearly shown in Figure 2, has a pawl 222 pivotally mounted thereon. This pawl is spring-biased counterclockwise into engagement with ratchet wheel 23% so as to rotate the ratchet counterclockwise when the pawl carrier is similarly rocked.

Referring back to Figure 3, it may be seen that the lower extremity of stud shaft 239 has fastened thereto a gear 243 from which extends a pin 2 4,

adapted to engage pawl carrier 213i during the first portion of the film feeding cycle. This gear 253 (Figure 2) meshes with a gear sector 225 pivotally attached as by a pin 246 to an integral portion of the magazine housing. Also attached "'1 to this pin, which is pivotable relative to the housing, is a crank arm 248' (see also Figure 2) the free end of which has. a pin 242, extending therefrom. This latter pin overlies a finger 6901. which projects from the end of link 60, and thus receives a driving impulse therefrom, when the link is driven.

From the above, it may be seen that when link 82 is rocked upwardly, crank arm 248, and accord-v in y g ar e r .45. a e r cked, counterclock wise, the sector thus driving gear 243 clockwise. As gear 243 is rotated clockwise, its pin 244, which n r ie paw carr e in tates. with. t. and accordingly forces pawl carrier 24! ina clockwise d r t o al When the driving means (not shown, but shown and described in the aforesaid application) for link 65 is deenergized, which accordingly permits link to drop away from pin 249 to the position shown in Figure 2, pawl 242 drives ratchet wheel 226, thus to rotate takeup spool 221 (Figure 1) te take up the film transported by the film feedit claws in the camera. Reverse rotation of ratchet 235 is prevented by a spring-biased pawl 2.59, pivotally carried by the magazine casing.

As shown in Figure 3, another strut 25! within the camera housing rotatably supports a shaft 25-2, to the outer end of which is attached a knurled knob 253-, and to the inner end of which is fastened a disc 254, which carries a pin 255. Also mounted onshaft 252 is a bushing 258, rockably mounting a pawl carrier 251, whose pawl 258 (see Figure 2 is spring-biased into engagement with ratchet wheel 231. As noted above, this ratchet wheel is attached to shaft 234 which, as

hereinbefore noted, is keyed to the core of film supply spool 226. Disc 254 (Figure 2) has pivotally attached thereto, as by a pin 260, one end of a link 26E, the other end of which is attached to gear by a pin 262. It may now be seen that when gear 243 is rotated in the manner hereinbefore described'disc 254 is driven counterclockwise by link 26E. As the disc rotates counterclockwise, its pin 255 engages pawl carrier 251, thus driving the pawl carrier counterclockwise also.

As pawl carrier 2511 continues to rotate counterclockwise, acam surface 251a formed thereon ultimately engages a pin 263 carried by a lever 254, pivoted on a pin 265, projecting from one wall of the camera housing. The engagement of the cam surface with pin 253 rocks lever 264 clockwise, so that another pin 286 carried thereby and extending through the bifurcated end of a fork 251 rocks the fork counterclockwise. This fork is attached to a shaft 259, to which is also attached an arm 269 (Figure 1), on the extremities of which rollers 228 and 229 are rotatablymounted. Thus when fork 231 (Figure 2) is rocked counterclockwise, so also are shaft 268 and arm 222 (Figure 1) thus moving the rollers to the broken line positions shown, and accordingly creating slack in the film.

This slack, as pointed out above, is taken up. when the film is transported through film gate 231 by the camera film claws. Ratchet wheel 231; is also provided with a spring-biased pawl 210 (Figure 2) to prevent reverse rotation thereof.

When actuating link moves to the position shown in Figure pawl carriers MI and 251 are respectively driven counterclockwise and clockwise, to rotate the, take-up and supply spools. To this end, as shown in Figure 3, a spring 21! is coiled around the hub of pawl carrier 24], in which is anchored one end of the spring, the. other end being anchored in strut 23 1. Likewise, a spring 212 has one end anchored in pawl carrier 251, and the other in strut 25 I. Both of these springs are tensioned when the pawl carriers are positively driven, in the manner hereinbefore, described, and accordingly drive the pawl carriers in the opposite direction when they are free to do so upon movement of link 60 to its Figure 2 position, thus to rotate take-up spool 221 (Figure 1) counterclockwise, and supply spool 226 clockwise. At the same time, pawl carrier 251 (Figure 2) is withdrawn from pin 263 on lever 254 so that under the bias of a spring 213 connected between link 26! and fork 261, lever 264, fork 261, shaft 263 and arm 269 (Figure 1) may be pulled in directions opposite to those in which they were driven, thus to return rollers 228 and 229 to their full line positions. As this occurs, slack film created between the two film spools, when the supply spool was rotated, is taken up by rollers :28 and 229. This action of am 269 continues until lock pawl. 214. on arm 264 (Figure 2). engages ratchet wheel 249110 stop any further rotation thereof.

As the slack film between the film spools is transported. through film gate 23 I. by the camera film claws (not shown), a loop of film is formed above guide plate 232. When, however, the film lies flush against this uide plate, it also overlies a bent-out ear 215 of an arm 216, fastened to a rockable shaft 218, which also has fastened thereto a finger 219. This arm and finger are under constant counterclockwise bias of a spring (not shown), so that when the aforementioned loop of film is formed, through the action of the film transporting claws, arm 216 and finger 219 are free to swing counterclockwise in the film loop. As they do so, the lower end of finger 219, as shown in Figure 2, engages a pin 280 carried by a locking pawl 290 pivoted a at 29 I, and adapted to engage and lock ratchet wheel 236 when the several parts are in the position shown. When, however, finger 219 swings counterclockwise, as noted, it forces locking pawl 290 counterclockwise also, out of engagement with ratchet wheel 236. When, however, the take-up spool 221 (Figure 1) is driven to take up slack film after the film transport portion of the cycle, it flattens out the film loop created over guide plate 232, and in so doing rocks arm 216 and accordingly finger 219 clockwise against the bias of their spring. In so doing, finger 219 (Figure 2) permits locking pawl 290, which is spring-biased clockwise, to reengage ratchet wheel 236 and prevent further rotation thereof.

Film gate Film gate 23I (Figure 3) comprises an apertured carrier plate 320 hingedly attached as at 32l to the magazine housing structure so that it can be readily folded back, i. e. swung clockwise, for ease of loading. A suitable spring 320a is attached to the pivot of carrier plate 320 to effect counterclockwise return thereof after the film is loaded, a boss 322 being provided on door 22l for positively holding the gate in closed position I when the door is closed. These parts are so constructed as to preclude complete closing of the door unless plate 320 is in its proper operative position.

Plate 320 reciprocably receives a plurality of headed pins 323 and 324, on the right-hand ends of which is mounted a pressure plate 325, springs 326 being disposed about pins 323 and 324 between plates 32B and 325 to urge the pressure plate to the right toward an aperture plate 321, Aperture plate 321 is secured in any suitable manner to the magazine housing so that its aperture registers with an aperture 328 formed in the housing. Pins 323 and 324 are so dimensioned that they position pressure plate 325 closely adjacent aperture plate 321, while leaving sufiicient clearance between the two plates for the passage of film. At one side of the film passage is a spring 329 mounted on a shelf 323a carried by plate 320 and adapted to engage one edge of the film and press the opposite edge thereof against a guide portion 330 of the magazine housing, thus accurately to position the film sideways. Pressure plate 325, aperture plate 321 and the other various film guide plates throughout the magazine are provided with raised runners 33| which engage and guide the film near the outside edgesthereof, thus allowing the center portion of the film to move through the magazine without touching any part thereof, thereby to prevent scratching of the film, and also to reduce friction.

Magazine operation While the over-all operation of the magazine will be apparent from the foregoing, it might be well to summarize a complete cycle. When the camera is in condition to transport film for the succeeding cycle, all parts of the magazine are in the positions shown in Figures 1, 2 and 3. Thus, when link 60 (Figure 2) is actuated, it effects counterclockwise rotation of sector 245, and accordingly clockwise rotation of gear 243. Through the action of link 26!, disc 254 is rotated counterclockwise also. Pin 244 on gear 243 rotates pawlcarrier 24 l, and accordingly pawl 242 clockwise, whilepin 255 on disc 254 rotates pawl carrier 251 and accordingly pawl 258 counterclockwise. As pawl carrier 251 rotates counterclockwise, its cam portion 251a ultimately engages pin 263, rotating lever 264 slightly clockwise, and accordingly rocking film roller arm 269 (Figure 1) counterclockwise, thus carrying where 228 and 229 to their broken line position to leave some slack in the film.

At the end of the actuation of link 60, the camera mechanism goes through its operative cycle (as described in the aforesaid application) and the film claws, as will be described, push the film upwardly the required amount. This occurs with great rapidity, and during the course of the cycle the slack film between the film spools is fed through the film gate and a loop of film is formed over guide plate 232 (Figure 1) At the same time, link to (Figure 2) returns to the position shown, so that spring 21!, which was tensioned during the clockwise rotation of pawl carrier 2 (Figure 3) is then free to drive pawl carrier 24l (Figure 2) counterclockwise, causing pawl 242 to drive ratchet wheel 236 and shaft 233 counterclockwise, thus to take up the slack, film, i. e. the loop of film, over guide plate 232. As this slack film is taken up, the film presses downwardly on arm 216 (Figure 1) permitting locking pawl 290 (Figure 2) to engage ratchet wheel 23B and stop further rotation. This lock remains engaged with the ratchet wheel until the next cycle, at which time the film is again moved through the film gate to create a new slack loop over guide plate 232. At the same time, finger 219, under the bias of its spring, disengages locking pawl 290. Also, at the time the slack film is taken up on the take-up spool, spring 212, which was tensioned during the clockwise movement of pawl carrier 251 (Figure 3), rotates pawl carrier 251 (Figure 2) and pawl 258 clockwise, driving ratchet wheel 231 and shaft 234 and accordingly supply spool 226 in the same direction to feed a new slack loop between the two film spools for the following cycle. As this new slack loop of film isfed ofi", spring 213 (Figure 2) rocks arm 269 (Figure 1) clockwise to the solid line position, at which time locking pawl 214 (Figure 2) engages ratchet wheel 231 to prevent further rotation of the feed spool. In this way, after each operation of the magazine, a new slack loop of exactly the right amount of film is created so that during the succeeding cycle the film claws have to move only a relatively small length of film, rather than drive the supply spool 226 together with the film carried thereby.

It may now be seen that with a magazine of this nature several definite and real advantages inhere. As noted, the magazine may be readily and easily loaded under adverse light conditions, as there are no sprockets to which the film must be fitted and no guides through which the film must be threaded endwise. Rather the film may be easily slid laterally into or over the various guides and film gate with all risk of improperv loading precluded by baffles 28! and 282 (Figure 1). Also by reason of the automatic film feeding characteristics of the magazine mechanism, whereby just the proper amount of film is unwound from the supply spool prior to the film 'transport portion of the cycle during which the film claws in the magazine pull the film through the film gate, there is no need to form film loops in the magazine at loading time, thus precluding the possibility of improper loading, nor do accused the film clawshave to. drive thessupply spool associated mechanism.

It. should: also. benoted that. when themagazine is. loaded, it. is unnecessary accurately to reg ister the film with respect to magazine aper ture 328, the film claws, or the film. register pins. (to. be, described below), as the claws. and pins are spring-loaded: in. the direction of engagement with the film. Thus if the film. per

forations are not in register with the film claws or register pins when: the magazine is attached to. the camera body, they will merely be pushed back without damage either to them or the film, and will ultimately engage the film, i. e. enter the perforations therein when the camera is actuated;

Itmay now be seen that in the operation of the magazine after the supply spool 226 has been installed and the film F has been passed around rollers 228 and 229, through the guides and film gate, and" the leading end attached to take-up spool 22?, an accurate, predetermined amount of film is metered from the supply spool. 226. and is stored between the supply and take-upspools, remote from the camera aperture so as 25 to be readily available for subsequent feeding movement of the film by the film claws across the aperture. Thus, when the film claws: draw the film across the aperture, as described hereinbelow, the only load on the claws is the mass 39 of' the stored film. This, of course, permits of economical, light-weight construction and accurate, high-speed operation of the film claws during successive operativ v cycles;

The mechanism for operating link 69 and for driving the film claws and film register pins includes a crank pin 86 (Figure 5) which is driven by the driving: mechanism disclosed and de scribed in detail in the aforesaid application.

Crank pin- 86 is fastened to a crank arm 8? 40 which, in turn, isfastened to a bushing 9i? secured to one end of a shaft St. The other end of this shaft carries asimilar bushing and crank arm (not shown). Crank pin- 86- pivotally sup-- ports one end of a link I80, to the lower end of which a lever I93 and an arm [84 are pivotally attached. A similar arm and lever (not shown) are similarly attached to the crank arm mounted on the: other end of shaft 9L Indeeed,

the lever systems on both ends of shaft 8| are similar, so only that shown in Figure 5 will be described herein. For adetailed description of the structure and operation of the counterpart of. this lever system, reference is made to the aforementioned application. The right hand' Hide of'armte l-is a roller adapted to ride against a guide plate HI secured to a front mounting plate H2, in turn secured at the'top andbot- Secured to the forwardly extending portiontom, respectively, to apair of forwardly extend- 7O ing arms, one of which is shown at H3 in Figure 5. These arms are preferably integral with coverplate 55; Front plate H2 has: a pair of rectangular cutouts, one of which is shown at H6, through which project forwardly extending portions of guide plate H l The other cut-out (not shown) similarlyreceives forwardly proj'ecting portions of the counterpart (not shown)" of guide plates I'H. These forwardly extending portions of the two: pairs of guide plates arespaced, and accordingly provide guide slotsre-- spectively for film= claws I09- and i111.

As the twofilm transporting claws I06 and NW operate in unison, it will sumce todescribe the operation of claw I 06 Thus, when crank arm 8-1; (Fig-ure '5 is rotated in the manner described in the above-mentioned application, it'- revolv'esclockwise, asviewed inthis figure, thus driving linkrun downwardly to depress lever IUZ. As this lever is depressed, arm H14 and accordingly film claw H16 on the end thereof is drawndownwardly. I-tmight here be noted that each arm andleverset, e; g.. arm I04- and lever Hi3, are biased away from one another by a suitably arranged spring In, the other arm and lever set being similarly biased apart by a similar spring (notshown k, these'springs thus maintaining the film claw rollers, suchas roller. 1-09 inengagement. with their respective sets ofguide plates. and accordingly tending to force the film: claws intov the perforations. of the film. During, the: downwardx stroke of the film claws, as described, they ratchet past the film perforae tions as. they are. drawn downwardly in a. di rection. opposite to the, direction, to which the. film, is. to. be, transported. Thus, at. the end. of about of. angular movement of. crank arm. t1 and. its. counterpart, the two. sets of links, levers and arms, e. g. link I00, lever I03 and. arm. HM, commence. to. move upwardly: with the film. claws extending throughopposed film per-.- forations, As; the. film claws are moved up? warclly, the film is: transported by an amount equivalent, tothe, full stroke. of the. claws, after which the crank. arms. again draw the? claws downwardly until they arriye at. the. rest: position. shown in. Figure 5.

In. order to assure that each successive frame. of. the film; is. properly located in. relation to the camera lens, there. is: provided a film registering device, whichalsaservesthe added purpose of maintaining the film, motionless. during the. exposure, period. This device includes-a pin I241: (Figure. 5) which is reciprocably. mounted in' a: bushing 1-2.1 extendingv through the front. wall; 5.! def. camerahousing; 5| and, iscarried by front. plate H2. The, inner end, of pin- I20 slotted. to receive thev bent down end of an arm I22, whose otherv end, is fastened to the topof a, rocker. arm 123,, pivotally. mounted as at I24 on the. free end ot a lug. 25., secured to. andextending inwardly from. front plate I [2. The lower end |'Z3.a.. of. rocker arm I23 carries, one end of. a, spring I 2.6, the other end. of. which; abuts. andiis carriedv by front plate H2, spring I26 thus.- putting. the rocker. arm under a constant counterclockwise bias, as viewed in Figure 5. Shaft 91- carries a cam (not shown) adapted, to engageamutton (not, shown) mount- 7 ed'on: lower end, tzfie. of. rocker arm- I233. sothat.

when; the cam; rotates. with shaft. 9.1 during the: film transport. portion of. the operative. cycle: the cam. rocks; rocker arm= i232 clockwise; asviewediin'. Figure: 5;-so that pin: I20: is withdrawm front that: perforation of. the film. through which it extended; prior to. the beginning. of the film transport: ortion" o'f-"thecycle. The: construction and operation of this cam is described in detail in the aforementioned application.

In other words, the registeringpin I20 iswithdrawn during the first 90 of movement of crank arm 8! during which the film claws are being drawn downwardly so that the film does not start to move until the registering pin, of which there are two, incidentally, as shown in Figure 6, is withdrawn from the film. In connection with the operation of the film claws and film registering pins, it should be noted that the film magazine is conditioned for operation by the upward movement of fork 653 (Figure 4) during the initial portion of the operative cycle, as was pointed out hereinabove.

It may now be seen that through the provision of film claws and registering pins of the nature described, accurate initial registry of the film perforations is unnecessary and the necessity for sprockets or similar devices is obviated.

As many possible embodiments may be made of the mechanical features of the above invention, and as the art herein described might be varied in various parts, all Without departing from the scope of the invention, it is to be on derstood that all matter hereinabove set forth, or shown in the accompanying drawings is to be interpreted as illustrative and not in a limiting sense.

I claim:

1. In a strip film magazine for a can'iera, the combination of, a casing, film supply and takeup spools rotatably mounted in said casing, a

pair of ratchets respectively connected to spools, a pair of members rotatably mounted in said casing respectively adjacent said. ratchets, a pair of pawls pivotally mounted in said casing and respectively in ratcheting engagement with said ratchets so as to drive said ratchets upon operation of said pawls in one direction, a loa able spring connected to each of said pawls and biasing them in ratchet driving direction of movement, a driving connection between respective members and pawls adapted to drive said pawls in a spring loading direction upon operation of said members in one direction, and means operated by the camera for driving both of said members in spring-loading direction and which upon release allows said springs to drive said pawls and accordingly said ratchets.

2. In a strip film magazine for a camera, the combination of, a casing, film supply and takeup spools rotatably mounted in said casing, a

pair of ratchets respectively connected to said spools, a pair of members rotatably mounted in said casing respectively adjacent said ratchets, a pair of pawls pivotally mounted in o' 'ng and respectively in ratcheting engage said ratchets so as to drive said ratchets upon operation of said pawls in one direction, a loadable spring connected to each of said pawls biasing them in ratchet driving direction of movement, a driving connection between respective members and pawls adapted to drive said pawls in a spring loading direction upon operation of said members in one direction, and means operated by the camera for driving both of said members in spring-loading direction and which upon release allows said springs to drive said pawls and accordingly said ratchets, said driving 10 means including an elongated driving link in said casing interconnecting said members so that both move in unison upon operation of said driving means.

3. Apparatus in accordance with claim 2 wherein one of said members is in the form of a gear and said driving means includes an oscillatable gear sector in mesh with said gear.

4. Apparatus in accordance with claim 1 wherein means are operatively associated with that one of said ratchets connected to the supply spool for holding the supply spool against rotation after a predetermined amount of film has been withdrawn therefrom.

5. In a strip film magazine for a camera, the combination of, a casing, film supply and takeup spools rotatably mounted in said casing, a pair of ratchets respectively connected to said spools, a pair of members rotatably mounted in said casing respectively adjacent said ratchets, a pair of pawls pivotally mounted in said casing and respectively in ratcheting engagement with said ratchets so as to drive said ratchets upon operation of said pawls in one direction, a loadable spring connected to each of said pawls and biasing them in ratchet driving direction of movement, a driving connection between respective members and pawls adapted to drive said pawls in a spring loading direction upon operation of said members in one direction, means operated by the camera for driving both of said members in spring-loading direction and which upon release allows said springs to drive said pawls and accordingly said ratchets, an arm pivotally mounted in said casing between said spools and having a film guiding element on each end over which the film is trained, said arm being rockable by the film upon feeding movement thereof, a spring loaded upon feeding movement of the film for rocking said arm subsequent to rotation of said supply spool to take up slack film created thereby, and means connected to said arm and operatively associated with the supply spool ratchet and accordingly with the supply spool to lock the supply spool after predetermined film supplying rotation thereof.

IRVING W. DOYLE.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 1,914,214 Porter June 13, 1933 1,942,891 Wittel Jan. 1934 2,060,922 Black et al Nov. 17, 1936 2,163,179 Porter June 20, 1939 2,165,706 Howell July 11, 1939 2,184,003 Parker et a1 Dec. 19, 103 2,284,487 Hineline May 26, 1942 2,321,812 Heller et al June 15, 1943 2,326,654 Jagust Aug. 10, 1943 2,342,509 Gaty et a1 Feb. 22, 1944 FOREIGN PATENTS Number Country Date 895,197 France Mar. 27, 1944 

